Quantum mechanics II WM-FI-403
1. Physical backround of quantum mechanics,
2. Some qauntum effects
3. Schrodinger equation
4. Eigenfunctions and eigenvalues,
5. Uncertainty principle and its consequences
6. Bound states in one dimension
7. Examples: potential wells
8. Harmonic oscillator, energy eigenvalues
9. Systems with finite number of states
10. Matrix formulation of quantum mechanics,
11. Spin and magnetic moment
12. Bloch equation for spin
13. Angular momentum in quantum mechanics
14. Landau levels
15. Semicalssical theory of radiation (outline)
(in Polish) E-Learning
Subject level
Learning outcome code/codes
Preliminary Requirements
Course coordinators
Learning outcomes
Posesses deep knowledge of main barnches of physics and understands mathematical formalism used in their description
Knows and understands main physical laws
Knows relations between this branch and other branches of theoretical and experimental physics
Knows laws nad their description used in theoretical physics and understands the formalism
Understands physical processes on grounds of quantum physics
Knows how to use the quantum formalism to describe laws and processes in nature
Knows how to apply agebraic methods to solve problems in various branches of physics
Recognizes mathematical structures (e.g. algebraic, geometric) used in physical theories
Understands his own limitations and the need for further studies
Assessment criteria
Continuous monitoring of work during recitations
Midterm exam (in writing)
Final exam (in writing)
Practical placement
None
Bibliography
R. Shankar, Mechanika kwantowa, PWN 2006
I. Białynicki-Birula, M. Cieplak, J. Kamiński, Teoria kwantów: Mechanika falowa, PWN 2001
Additional information
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